Hybrid Beamforming for Massive MIMO Phased Array Systems

Move Your Wireless Ideas to Production

See how MATLAB and Simulink make collaboration easy, so you can take your ideas to production fast.

Algorithms and IP Creation

Wireless researchers and engineers worldwide rely on MATLAB to explore and prove new technology concepts and create intellectual property. The apps and customizable code in MATLAB toolboxes help you quickly explore design alternatives, test with live data, and analyze simulation results and measurements.

You can use the MATLAB algorithms you create to build standard-compliant systems, model RF and antenna components, and automate hardware prototyping and implementation.

Baseband, RF, and Antenna Design

Baseband, RF, and antenna engineers can use multidomain simulations to help them design next-generation wireless technologies such as massive MIMO arrays, hybrid beamforming architectures, and adaptive RF transceivers and radio front-ends.

Mix high-level and high-fidelity models to realistically simulate component interactions, quickly evaluate design tradeoffs, and analyze the performance impact of design choices. Include S-parameters and other RF measurements in your system simulation. By testing with multidomain simulation, you’ll find errors sooner, spend less time debugging in the hardware lab, and respond faster to new requirements.

Hardware Prototyping and Implementation

System architects and hardware engineers can use and share the same Simulink models for each of their tasks. These hardware-accurate models can automatically generate readable, synthesizable HDL code for FPGA, SoC, and ASIC implementation. System architects can build prototypes with popular FPGA and software-defined radio kits and hardware engineers can reuse those models for production deployment.

HDL-optimized LTE IP blocks and verified reference applications help you improve LTE system performance and shorten development time.

Testing and Verification

Use the validated models as a test bench for verifying hardware prototypes and production implementations. You can test designs using a range of SDR hardware and RF instruments; automatically generate SystemVerilog models for ASIC verification; and efficiently analyze large datasets from simulations, lab tests, and field trials.

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